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Pivot Concepts:
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Target Concepts:
Gene/Protein
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Query: EC:2.7.7.48 (
transcriptase
)
9,479
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
The identification and development of new antiviral agents that can be used to combat hepatitis C virus (HCV) infection has been complicated by both technical and logistic issues. There are few, if any, robust methods by which HCV virions can be grown in vitro. The development of HCV RNA replicons has been a great breakthrough that has allowed for the undertaking of significant screening efforts to identify inhibitors of HCV intracellular replication. However, since replicons do not undergo a complete replication cycle, drug screening programs and mechanism of action studies based solely on these assays will not identify compounds targeting either early (virion attachment, entry, uncoating) or late (virion assembly, egress) stages of the viral replication cycle. Drugs that negatively affect the infectivity of new virions will also not be identified using HCV RNA replicons.
Bovine viral diarrhea
virus (BVDV) shares a similar structural organization with HCV, and both viruses generally cause chronic long-term infections in their respective hosts. The BVDV surrogate model is attractive, since it is a virus-based system. It is easy to culture the virus in vitro, molecular clones are available for genetic studies, and the virus undergoes a complete replication cycle. Like HCV, BVDV utilizes the LDL receptor to enter cells, uses a functionally similar internal ribosome entry site (IRES) for translation, uses an NS4A cofactor with its homologous NS3 protease, has a similar NS3 helicase/NTPase, a mechanistically similar NS5B
RNA-dependent RNA polymerase
, and a seemingly equivalent mechanism of virion maturation, assembly and egress. While the concordance between drugs active in either BVDV or HCV is largely unknown at this time, BVDV remains a popular model system with which drugs can be evaluated for potential antiviral activity against HCV and in studies of drug mechanism of action.
...
PMID:Bovine viral diarrhea virus as a surrogate model of hepatitis C virus for the evaluation of antiviral agents. 1451 16
Bovine viral diarrhea
virus (BVDV) is amongst the best-characterized members of the Flaviviridae, that includes the hepatitis C virus (HCV). The virally encoded
RNA-dependent RNA polymerase
(RdRp) plays a crucial role during replication and therefore represents an important target for the development of antiviral drugs. Here we studied biochemical mechanisms associated with the inhibition of BVDV RNA synthesis by 2'-hydroxyl, 3'-deoxynucleoside triphosphates (3'-dNTPs). All four nucleotide analogues are effectively incorporated and act as chain-terminators. However, relatively low, physiologically relevant concentrations of pyrophosphate (PPi) are sufficient to drive the reaction backwards, which results in primer unblocking and rescue of RNA synthesis. Metal ion requirements for nucleotide incorporation and pyrophosphorolysis are similar; the efficiency of both reactions is higher with Mn2+ as compared to Mg2+. Complexes containing chain-terminated primer strands are stable in the presence of heparin, which increases the probability that pyrophosphorolysis occurs before the enzyme can dissociate from its nucleic acid substrate. In contrast to the reverse transcriptase of the human immunodeficiency virus type-1 (HIV-1 RT), the BVDV RdRp may not recruit NTP pools as PPi donors. Conversely, we found that the efficiency of primer unblocking is severely compromised in the presence of increasing concentrations of the NTP that is complementary to the next template position. These data suggest that the incoming NTP can access its designated binding site, which, in turn, prevents the catalytically competent complexation of PPi. The results of this study provide novel insights into mechanisms involved in pyrophosphorolysis associated with viral RdRps, and suggest that the excision reaction is likely to be an important parameter that can affect susceptibility to nucleotide analogue inhibitors directed against viral RdRps.
...
PMID:Excision of incorporated nucleotide analogue chain-terminators can diminish their inhibitory effects on viral RNA-dependent RNA polymerases. 1500 48
Bovine viral diarrhea
virus (BVDV) nonstructural protein 5B is an
RNA-dependent RNA polymerase
, essential for viral replication. Initial attempts to crystallize a soluble form of the 695-residue BVDV polymerase did not produce any crystals. Limited proteolysis, homology modeling, and mutagenesis data were used to aid the design of polymerase constructs that might crystallize more readily. Limited proteolysis of the polymerase with trypsin identified a domain boundary within the protein. Homology modeling of the polymerase, based on the structure of hepatitis C virus polymerase, indicated that the two polymerases share a 23% identical "core," although overall sequence identity is low. Eighty-four expression clones of the BVDV polymerase were designed by fine-sampling of chain termini at the boundaries of domain and of active truncated forms of the polymerase. The resulting constructs were expressed in Escherichia coli and purified using high-throughput methods. Soluble truncated proteins were subjected to crystallization trials in a 96-well format, and two of these proteins were successfully crystallized.
...
PMID:Design, expression, and purification of a Flaviviridae polymerase using a high-throughput approach to facilitate crystal structure determination. 1538 60
Bovine viral diarrhea
virus (BVDV) infections are prevailing in cattle populations on a worldwide scale. The BVDV
RNA-dependent RNA polymerase
(RdRp), as a promising target for new anti-BVDV drug development, has attracted increasing attention. To explore the interaction mechanism of 65 benzimidazole scaffold-based derivatives as BVDV inhibitors, presently, a computational study was performed based on a combination of 3D-QSAR, molecular docking, and molecular dynamics (MD) simulations. The resultant optimum CoMFA and CoMSIA models present proper reliabilities and strong predictive abilities (with Q(2) = 0. 64, R(2)ncv = 0.93, R(2)pred = 0.80 and Q(2) = 0. 65, R(2)ncv = 0.98, R(2)pred = 0.86, respectively). In addition, there was good concordance between these models, molecular docking, and MD results. Moreover, the MM-PBSA energy analysis reveals that the major driving force for ligand binding is the polar solvation contribution term. Hopefully, these models and the obtained findings could offer better understanding of the interaction mechanism of BVDV inhibitors as well as benefit the new discovery of more potent BVDV inhibitors.
...
PMID:Computational Study Exploring the Interaction Mechanism of Benzimidazole Derivatives as Potent Cattle Bovine Viral Diarrhea Virus Inhibitors. 2735 75
Bovine viral diarrhea
virus (BVDV) infection is still a plague that causes important livestock pandemics. Despite the availability of vaccines against BVDV, and the implementation of massive eradication or control programs, this virus still constitutes a serious agronomic burden. Therefore, the alternative approach to combat Pestivirus infections, based on the development of antiviral agents that specifically inhibit the replication of these viruses, is of preeminent actuality and importance. Capitalizing from a long-standing experience in antiviral drug design and development, in this work we present and characterize a series of small molecules based on the 9-aminoacridine scaffold that exhibit potent anti-BVDV activity coupled with low cytotoxicity. The relevant viral protein target - the
RNA-dependent RNA polymerase
- the binding mode, and the mechanism of action of these new antivirals have been determined by a combination of in vitro (i.e., enzymatic inhibition, isothermal titration calorimetry and site-directed mutagenesis assays) and computational experiments. The overall results obtained confirm that these acridine-based derivatives are promising compounds in the treatment of BVDV infections and, based on the reported structure-activity relationship, can be selected as a starting point for the design of a new generation of improved, safe and selective anti-BVDV agents.
...
PMID:9-Aminoacridine-based agents impair the bovine viral diarrhea virus (BVDV) replication targeting the RNA-dependent RNA polymerase (RdRp). 2932 85
Bovine viral diarrhea
virus (BVDV) is a pestivirus whose infection in cattle is globally distributed. The use of antivirals could complement vaccination as a tool of control and reduce economic losses. The
RNA-dependent RNA polymerase
(RdRp) of the virus is essential for its genome replication and constitutes an attractive target for the identification of antivirals. With the aim of obtaining selective BVDV inhibitors, the crystal structure of BVDV RdRp was used to perform a virtual screening. Approximately 15,000 small molecules from commercial and in-house databases were evaluated and several structurally different compounds were tested in vitro for antiviral activity. Interestingly, of twelve evaluated compounds, five were active and displayed EC
50
values in the sub and low-micromolar range. Time of drug addition experiment and measured intracellular BVDV RNA showed that compound 7 act during RNA synthesis. Molecular Dynamics and MM/PBSA calculation were done to characterize the interaction of the most active compounds with RdRp, which will allow future ligand optimization. These studies highlight the use of in silico screening to identify a new class of BVDV inhibitors.
...
PMID:Identification of potent bovine viral diarrhea virus inhibitors by a structure-based virtual screening approach. 3050 66
